The Effect of Short-duration Seawater Exposure on the Swimming Performance of Wild and Hatchery-reared Juvenile Coho Salmon (Oncorhynchus kisutch) during Smoltification

Abstract

The critical swimming velocity (U_crit) and haematology of wild and hatchery-reared coho salmon (Oncorhynchus kisutch) juveniles were examined in either fresh water or seawater following a 24-h seawater challenge, at the time of smoltification. In fresh water, wild smolts swam faster than hatchery-reared fish but this could largely be accounted for by scaling for body size. Transfer to seawater significantly elevated resting plasma [Na⁺] and reduced subsequent U_critin hatchery fish (by 12%) relative to that determined in fresh water but had no significant effect on resting plasma [Na⁺] and U_critin wild fish. Swimming the fish a second time in seawater after the initial 2-h exercise period resulted in a significant reduction in U_critrelative to that in fresh water in both wild fish (16%) and hatchery fish (a further 14%); this relatively greater impairment in U_critin hatchery fish was due to a reduced hypo-osmoregulatory ability following seawater transfer that impairs conditions for muscle contractility and aerobic metabolism. Aerobic metabolism in seawater-exposed fish was affected in part through a reduction in haematocrit and an increase in plasma volume, reducing oxygen carrying capacity of the blood relative to conditions in fresh water.